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  • CCM250PS15图
  • 深圳市科雨电子有限公司

     该会员已使用本站9年以上
  • CCM250PS15
  • 数量62 
  • 厂家XP 
  • 封装电源外接 
  • 批号24+ 
  • ★体验愉快问购元件!!就找我吧!单价:2540元
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产品型号CCM250PS15的Datasheet PDF文件预览

CCM250 Series  
250 W Convection Cooled  
300 W Peak Rating 500 ms  
Very High Efficiency up to 95%  
Class B Conducted & Radiated Emissions  
1U Form Factor  
5 V Standby Rail  
80 V - 275 VAC Input Operation  
IT, Industrial & Medical Safety Approvals  
Remote On/Off & Power Fail Signal as Standard  
The CCM250 range of single output AC-DC 250 W nominal, 300 peak power supplies feature industry leading efficiency of 95% and  
absolute minimum efficiency of 90% with 90 VAC input and full load. This leap in efficiency has been achieved with full resonant ZCS  
topology and careful consideration to every aspect of power loss resulting in a convection cooled power supply packaged in a 6”  
(153mm) x 4” (102mm) x 1.5” (38mm) chassis which can be easily installed into the end application due to a 70% reduction in the  
dissipated heat, associated with other power supplies in this power range.  
The six standard models cover the voltage range from 12V - 48V , have dual input fusing and are compliant with IEC60601-1 Medical  
and IEC60950-1 IT safety approvals.  
The CCM250 series also boasts low earth leakage current of typically 90μA at 115V and 160μA at 230V, class B conducted and  
radiated emissions 5V standby rail, power fail signal and remote on / off.  
xppower.com  
Models and Ratings - Convection-cooled  
Output Power  
Output Current V1  
Output Voltage V1  
Standby Supply  
Model Number  
P nom  
250 W  
250 W  
250 W  
250 W  
250 W  
250 W  
P peak (1)  
300 W  
300 W  
300 W  
300 W  
300 W  
300 W  
I nom  
I peak (1)  
25 A  
12.0 VDC  
15.0 VDC  
24.0 VDC  
28.0 VDC  
36.0 VDC  
48.0 VDC  
20.8 A  
16.7 A  
10.4 A  
8.9 A  
5.0 V/0.5 A  
5.0 V/0.5 A  
5.0 V/0.5 A  
5.0 V/0.5 A  
5.0 V/0.5 A  
5.0 V/0.5 A  
CCM250PS12  
CCM250PS15  
CCM250PS24  
CCM250PS28  
CCM250PS36  
CCM250PS48  
20 A  
12.5 A  
10.7 A  
8.3 A  
6.9 A  
5.2 A  
6.25 A  
Notes:  
1. Peak duration is 500 ms max, average power must not exceed 250 W.  
Input Characteristics  
Characteristic  
Minimum  
Typical  
115/230  
50/60  
Maximum  
275  
Units  
VAC  
Hz  
Notes & Conditions  
Derate output power <90 VAC. See fig 1.  
Power fail signal cannot be used <90 VAC.  
Input Voltage - Operating  
80  
47  
Input Frequency  
63  
>
Power Factor  
0.9  
EN61000-3-2 class A compliant  
115/230 VAC  
Input Current - No Load  
Input Current - Full Load  
Inrush Current  
0.13/0.17  
2.4/1.2  
A
A
115/230 VAC  
30  
A
230 VAC, 25 ºC  
Earth Leakage Current  
Input Protection  
90/160  
250  
µA  
115/230 VAC/50 Hz (Typ.), 264 VAC/60 Hz (Max.)  
T5.0A/250 V internal fuse in both line and neutral  
Output Characteristics  
Characteristic  
Minimum  
Typical  
Maximum  
Units  
VDC  
%
Notes & Conditions  
Output Voltage - V1  
Initial Set Accuracy  
Output Voltage Adjustment  
Minimum Load  
Start Up Delay  
Hold Up Time  
12  
48  
See Models and Ratings table  
50% load, 115/230 VAC  
0.5(V1)  
,
5(V2)  
3
0
%
V1 only via potentiometer. See mech. details (page 11).  
A
0.5  
40  
s
230 VAC full load (see fig.2)  
90 VAC full load (see fig.3)  
After 20 min warm up  
90-264 VAC  
20  
ms  
%
Drift  
0.2  
0.5  
,
Line Regulation  
Load Regulation  
%
1(V1)  
5(V2)  
%
0-100% load.  
Recovery within 1% in less than 500 µs  
for a 50-75% and 75-50% load step  
Transient Response - V1  
4
5
%
Over/Undershoot - V1  
Ripple & Noise  
%
1(V1), 2(V2)  
% pk-pk  
%
20 MHz bandwidth (see fig.4 & 5)  
Overvoltage Protection  
Overload Protection  
115  
125  
140  
Vnom DC. Output 1 only, recycle input to reset  
Output 1 only, auto reset (see fig.6)  
165  
% I nom  
Short Circuit Protection  
Temperature Coefficient  
Overtemperature Protection  
Continuous, trip & restart (hiccup mode) all outputs  
0.05  
%/˚C  
°C  
110  
Auto recovery - temperature of main transformer  
2
xppower.com  
Input Voltage Derating  
300  
Peak Power Availability  
250  
200  
150  
100  
50  
Figure. 1  
80  
85  
90  
275  
264  
Input Voltage (VAC)  
Start Up Delay From AC Turn On  
AC  
Figure. 2  
V1 & V2 start up example  
from AC turn on (490 ms)  
V1  
V2  
Hold Up Time From Loss of AC  
Figure 3  
V1 hold up example at 250 W load  
with 90 VAC input (43 ms)  
3
xppower.com  
Output Ripple & Noise  
Figure 4  
V1 CCM250PS12 (full load)  
86 mV pk-pk ripple. 20 MHz BW  
Figure 5  
V1 CCM250PS24 (full load)  
84 mV pk-pk ripple. 20 MHz BW  
Output Overload Characteristic  
14  
12  
10  
Output enters  
Trip & Restart Mode  
8
Figure 6  
Typical V1 Overload  
6
Characteristic  
(CCM250PS12 shown)  
4
2
0
0
2
4
6
18  
20  
22  
24  
26  
Output Current (A)  
4
xppower.com  
General Specifications  
Characteristic  
Minimum  
Typical  
Maximum  
Units  
%
Notes & Conditions  
Efficiency  
93  
95  
Full load (see fig.7 & 8)  
4000  
1500  
500  
VAC  
VAC  
VAC  
kHz  
W/in3  
Isolation: Input to Output  
Input to Ground  
Output to Ground  
Switching Frequency  
Power Density  
30-500 / 25.6 / 51.2  
PFC / Boost / Main Converter.  
6.9  
MIL-HDBK-217F, Notice 2  
+25 °C GB  
Mean Time Between Failure  
Weight  
365  
kHrs  
lb (g)  
1.7 (780)  
Efficiency Versus Load  
100%  
100%  
90%  
80%  
70%  
60%  
50%  
40%  
90%  
80%  
70%  
60%  
50%  
40%  
10  
20  
30  
40  
50  
Load (%)  
60  
70  
80  
90  
100  
10  
20  
30  
40  
50  
60  
70  
80  
90  
100  
Load (%)  
230Vac input  
230VAC input  
Figure 7  
Figure 8  
CCM250PS12  
CCM250PS24  
Power Loss  
Waste heat creates a big headache for system designers. The industry leading efficiency achieved by the CCM250 is 5-10% above existing topologies  
used in this power area. This can result in a 70% reduction in generated heat as shown below and enables the overall system to run much cooler and  
more reliably.  
Example 2  
Example 1  
Conventional Products  
CCM250  
95 %  
Conventional Products  
CCM250  
95 %  
Efficiency  
85 %  
44.1 W  
100 %  
Efficiency  
90 %  
27.8 W  
100 %  
Generated Heat  
% Losses  
13.1 W  
30 %  
Generated Heat  
% Losses  
13.1 W  
47 %  
5
xppower.com  
Characteristic  
Notes & Conditions  
Signals  
Uncomitted opto isolated transistor, normally off when AC is good (see fig.9 - 11)  
Provides 5 ms (typically 20-30ms) warning of loss of output from AC failure  
Power Fail  
Remote On/Off (Inhibit/Enable)  
Standby Supply V2  
Uncommited isolated optocoupler diode, powered diode inhibits the supply (see fig.12-17)  
Isolated 5 V/0.5 A supply, always present when AC supplied.  
Signals  
Power Fail  
POWER SUPPLY  
Pin 2, 4 & 6  
CON 1  
2K2  
5 V Standby  
8V Max 3 mA  
Pin 7 CON 1  
Power Fail  
Collector  
Figure 9  
Transistor On (<0.8 V): Input & Output Not OK  
Power Fail  
Emitter  
Transistor Off (>4.5 V): Input & Output OK  
Pin 8 CON 1  
5 V Standby Rtn  
Pin 1, 3 & 5  
CON 1  
Signal Connector  
Power Fail  
V1  
Power Fail  
V2  
V1  
Figure 11  
Figure 10  
V1 warning time example at Power Fail signal 230  
VAC 250 W load (35 ms)  
Power Fail signal example  
at AC switch off  
6
xppower.com  
Signals  
Remote On/Off (Inhibit/Enable)  
POWER SUPPLY  
POWER SUPPLY  
5 V Standby  
5 V Standby  
2, 4 & 6 CON 1  
Pin 2, 4 & 6  
CON 1  
5 mA 8 V Max  
Inhibit Hi  
8 V Max  
Inhibit Hi  
Pin 10  
Pin 10 CON 1  
CON 1  
Inhibit Lo  
Inhibit Lo  
5 mA  
Pin 9 CON 1  
1K  
Pin 9 CH 1  
1K  
Logic GND  
Pin 1, 3 & 5  
CON 1  
Logic GND Pin  
1, 3 & 5 CON 1  
Figure 12  
Inhibit (Hi)  
Figure 13  
Inhibit (Lo)  
Signal Connector  
Signal Connector  
Inhibit  
V1  
Figure 14  
Example of outputs  
switching off when  
Inhibit (Lo) configuration  
used & switch closed  
V2  
Inhibit  
Figure 15  
Example of outputs  
switching on when  
Inhibit (Lo) configuration  
used & switch open  
V1  
V2  
7
xppower.com  
Signals
Remote On/Off (Inhibit/Enable)  
1K  
POWER SUPPLY  
Figure 16  
Enable (Hi)  
5 V Standby  
Pin 2, 4 & 6 CON 1  
1K  
Inhibit Hi  
5 mA  
Pin 10 CON 1  
Inhibit Lo  
Pin 9  
CON 1  
Logic GND  
Pins 1, 3 & 5 CON 1  
Signal Connector  
1K  
POWER SUPPLY  
Figure 17  
Enable (Lo)  
5 V Standby  
Pin 2, 4 & 6, CON 1  
1K  
Inhibit Hi  
Pin 10  
5 mA  
CON 1  
Inhibit Lo  
Pin 9  
CON 1  
Logic GND  
Pins 1, 3 & 5, CON 1  
Signal Connector  
Notes  
1. At AC switch on the output (VI) may momentarily rise when the unit is disabled using the 5 V standby in conjunction with the Remote On/Off function.  
Environmental  
Characteristic  
Minimum  
Typical  
Maximum  
Units  
Notes & Conditions  
Derate linearly from +50 ºC at 2.5%/ºC  
to 50% at 70 ºC. See fig.18 & Thermal  
Considerations, p.11. (-40 ºC consult sales)  
Operating Temperature  
-20 (-40)  
+70  
ºC  
Warm up Temperature  
Storage Temperature  
20  
Minutes  
ºC  
-40  
5
+85  
Convection cooled.  
See fig.18 & Thermal Considerations, p.12.  
Cooling  
Humidity  
95  
%RH  
m
Non-condensing  
Operating Altitude  
3000  
3 x 30 g/11 ms shocks in both +ve & -ve  
directions along the 3 orthogonal axis,  
total 18 shocks.  
Shock  
Vibration  
Single axis 10-500 Hz at 2 g x 10 sweeps  
8
xppower.com  
Derating Curve  
300  
250  
200  
150  
100  
50  
Peak Power Availability  
Figure 18  
0
-20  
-10  
0
10  
Ambient Temperature (°C)  
40  
50  
60  
70  
Electromagnetic Compatibility - Immunity  
Phenomenon  
Low Voltage PSU EMC  
Harmonic Current  
Radiated  
Standard  
EN61204-3  
Test Level  
Criteria  
Notes & Conditions  
High severity level  
as below  
EN61000-3-2  
EN61000-4-3  
EN61000-4-4  
EN61000-4-5  
EN61000-4-6  
MIL-STD 461 CS114  
Class A  
3
A
A
A
A
EFT  
3
Installation class 3  
3
Surges  
Conducted  
Curve 3, 10 KHz-200 MHz  
Dip:  
Dip:  
30% 10 ms  
A
B
B
A
EN61000-4-11  
60% 100 ms  
Dip: 100% 5000 ms  
Dip:  
Dip:  
Dip:  
30% 500 ms  
60% 100 ms  
100% 10 ms  
Dips and Interruptions  
Requires load derating to approx 80% with  
115 VAC input.  
A
EN60601-1-2  
(EN61000-4-11)  
A
B
Int.: >95% 5000 ms  
Electromagnetic Compatibility - Emissions  
Phenomenon  
Standard  
EN55022  
Test Level  
Class B  
Criteria  
Notes & Conditions  
See fig. 19  
Conducted  
MIL-STD 461D-F, CE102  
EN55022  
10 KHz-10 MHz  
Class B  
Radiated  
RTCA D0160D 21.4  
EN61000-3-3  
Cat. M  
Voltage Fluctuations  
9
xppower.com  
Typical EMC Plot  
Figure 19  
Typical conducted  
noise plot  
Safety Agency Approvals  
Safety Agency  
CB Report  
CSA  
Safety Standard  
Category  
NEMKO certificate #NO50564 IEC60950-1 Ed 2  
CSA certificate #2124603 CSA C22.2 No, 60950-1-07  
TUV certificate #B09 04 45240 011 EN60950-1  
LVD  
Information Technology  
Information Technology  
Information Technology  
TUV  
CE  
Safety Agency  
CB Report  
CSA  
Safety Standard  
Category  
Medical  
Medical  
Medical  
NEMKO certificate #NO50564 IEC60601-1  
CSA certificate #2124603 CSA C22.2 No, 601.1-M90  
TUV certificate #B08 03 45240 009 EN60601-1  
TUV  
Safety Agency  
Safety Standard  
Category  
CB Certificate  
NEMKO certificate #NO50564 IEC61010-1:2001 Ed 2  
Measurement, Control & Laboratory  
Equipment Protection Class  
Safety Standard  
Notes & Conditions  
Class I  
IEC60950-1:2005 Ed 2  
10  
xppower.com  
Mechanical Details  
0.94  
(23.9)  
3.94 (100.0)  
Input Connector CON 4  
Pin 1  
Pin 2  
Pin 3  
Line  
Neutral  
Earth  
CON 4 mates with Molex housing  
09-50-1051 and Molex series 5194  
crimp terminals.  
Output Connector CON 3  
M3 MOUNTING HOLES (IN 4 POSITIONS).  
MAX. PENETRATION BY SCREW TO BE  
2.5mm FROM BOTTOM FACE OF CHASSIS.  
1
2
+V1  
V 1 RTN  
+5Ve  
-5Ve  
P/F Emitter  
+Ve ROF  
P/F Collector  
-Ve ROF  
6.00  
(152.4)  
L2  
SIGNALS  
CONNECTIONS  
Signals Connector CON 1  
5 V Standby Return  
5 V Standby  
OUTPUT  
TERMINALS  
M4 SCREWS  
IN 2 POSITIONS.  
TORQUE TO  
90 cNm Max.  
OUTPUT VOLTAGE  
ADJUSTMENT.  
1
2
3
5 V Standby Return  
5 V Standby  
C12  
4
OUTPUT TERMINALS  
ALLOW CONNECTION  
5
5 V Standby Return  
5 V Standby  
FROM EITHER TOP OR SIDE  
6
7
Power Fail (Collector)  
Power Fail (Emitter)  
Remote On / Off (Cathode)  
Remote On / Off (Anode)  
C21  
8
9
M3 MOUNTING HOLES  
(IN 2 POSITIONS, EACH SIDE).  
10  
MAX. PENETRATION BY SCREW TO BE  
3.5mm FROM OUTSIDE FACE OF CHASSIS.  
INPUT  
TERMINAL  
BLOCK  
CON 1 mates with JST housing  
PHDR-10VS with  
contact SPHD-001T-P0.5  
Notes  
1. All dimensions in inches (mm).  
Tolerance .xx = 0.02 (0.50)ꢀ  
.xxx = 0.01 (0.25)  
1.73  
(44.0)  
4.00  
(101.6)  
Weight 1.7 lb (780 g) approx  
11  
xppower.com  
Thermal Considerations  
In order to ensure safe operation of the PSU in the end-use equipment, the temperature of the components listed in the table below must not be  
exceeded. Temperature should be monitored using K type thermocouples placed on the hottest part of the component (out of any direct air flow). See  
Mechanical Details for component locations.  
Temperature Measurements (Ambient 50 ºC)  
Component  
Max Temperature ºC  
120 ºC  
L2  
C12  
C21  
105 ºC  
105 ºC  
Service Life  
The estimated service life of the CCM250 Series is determined by the cooling arrangements and load conditions experienced in the end application.  
Due to the uncertain nature of the end application this estimated service life is based on the actual measured temperature of a key capacitor within the  
product when installed in the end application.  
The graph below expresses the estimated lifetime for a given component temperature and assumes continuous operation at this temperature.  
Estimated Service Life vs Component Temperature  
Figure 20  
185000  
165000  
145000  
125000  
105000  
85000  
65000  
45000  
25000  
5000  
105  
95  
85  
75  
65  
55  
C64 Temperature (°C)  
12  
10-Sep-13  
配单直通车
CCM25A3.50产品参数
型号:CCM25A3.50
生命周期:Contact Manufacturer
包装说明:,
Reach Compliance Code:compliant
风险等级:5.11
Base Number Matches:1
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